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Paper Details

Electron microscopy holdings of the Protein Data Bank: the impact of the resolution revolution, new validation tools, and implications for the future.
Biophys Rev
20
2022
SARS-CoV, nitrogen, nucleic acids
Author NameAffiliation
Stephen K BurleyThe State University of New Jersey
Stephen K BurleyInstitute for Quantitative Biomedicine, The State University of New Jersey
Stephen K BurleyCancer Institute of New Jersey, The State University of New Jersey
Stephen K BurleyUniversity of California San Diego
Stephen K BurleyThe State University of New Jersey
Helen M BermanThe State University of New Jersey
Helen M BermanInstitute for Quantitative Biomedicine, The State University of New Jersey
Helen M BermanThe State University of New Jersey
Wah ChiuStanford University
Wah ChiuStanford University
Wei DaiInstitute for Quantitative Biomedicine, The State University of New Jersey
Wei DaiThe State University of New Jersey
Justin W FlattThe State University of New Jersey
Justin W FlattInstitute for Quantitative Biomedicine, The State University of New Jersey
Brian P HudsonThe State University of New Jersey
Brian P HudsonInstitute for Quantitative Biomedicine, The State University of New Jersey
Jason T KaelberInstitute for Quantitative Biomedicine, The State University of New Jersey
Sagar D KhareInstitute for Quantitative Biomedicine, The State University of New Jersey
Sagar D KhareCancer Institute of New Jersey, The State University of New Jersey
Sagar D KhareThe State University of New Jersey
Arkadiusz W KulczykInstitute for Quantitative Biomedicine, The State University of New Jersey
Arkadiusz W KulczykThe State University of New Jersey
Catherine L LawsonThe State University of New Jersey
Catherine L LawsonInstitute for Quantitative Biomedicine, The State University of New Jersey
Grigore PintilieStanford University
Andrej Sali (CM4AI)Department of Pharmaceutical Chemistry, Quantitative Biosciences Institute, University of California San Francisco
Andrej Sali (CM4AI)Department of Pharmaceutical Chemistry, Quantitative Biosciences Institute, University of California San Francisco
Brinda VallatThe State University of New Jersey
Brinda VallatInstitute for Quantitative Biomedicine, The State University of New Jersey
Brinda VallatCancer Institute of New Jersey, The State University of New Jersey
John D WestbrookThe State University of New Jersey
John D WestbrookInstitute for Quantitative Biomedicine, The State University of New Jersey
John D WestbrookCancer Institute of New Jersey, The State University of New Jersey
Jasmine YoungThe State University of New Jersey
Jasmine YoungInstitute for Quantitative Biomedicine, The State University of New Jersey
Jasmine YoungThe State University of New Jersey
Jasmine YoungInstitute for Quantitative Biomedicine, The State University of New Jersey
Christine ZardeckiThe State University of New Jersey
Christine ZardeckiInstitute for Quantitative Biomedicine, The State University of New Jersey
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Datasets

EMDBA public repository for electron microscopy (EM) density maps of macromolecular complexes and subcellular structures. EMDB covers a variety of techniques, including single-particle analysis, electron tomography, and electron (2D) crystallography.Link
EMDBA public repository for electron microscopy (EM) density maps of macromolecular complexes and subcellular structures. EMDB covers a variety of techniques, including single-particle analysis, electron tomography, and electron (2D) crystallography.Link
EMDBA public repository for electron microscopy (EM) density maps of macromolecular complexes and subcellular structures. EMDB covers a variety of techniques, including single-particle analysis, electron tomography, and electron (2D) crystallography.Link
EMDBA public repository for electron microscopy (EM) density maps of macromolecular complexes and subcellular structures. EMDB covers a variety of techniques, including single-particle analysis, electron tomography, and electron (2D) crystallography.Link
EMDBA public repository for electron microscopy (EM) density maps of macromolecular complexes and subcellular structures. EMDB covers a variety of techniques, including single-particle analysis, electron tomography, and electron (2D) crystallography.Link
EMDBA public repository for electron microscopy (EM) density maps of macromolecular complexes and subcellular structures. EMDB covers a variety of techniques, including single-particle analysis, electron tomography, and electron (2D) crystallography.Link
EMDBA public repository for electron microscopy (EM) density maps of macromolecular complexes and subcellular structures. EMDB covers a variety of techniques, including single-particle analysis, electron tomography, and electron (2D) crystallography.Link
EMDBA public repository for electron microscopy (EM) density maps of macromolecular complexes and subcellular structures. EMDB covers a variety of techniques, including single-particle analysis, electron tomography, and electron (2D) crystallography.Link
EMDBA public repository for electron microscopy (EM) density maps of macromolecular complexes and subcellular structures. EMDB covers a variety of techniques, including single-particle analysis, electron tomography, and electron (2D) crystallography.Link
EMDBA public repository for electron microscopy (EM) density maps of macromolecular complexes and subcellular structures. EMDB covers a variety of techniques, including single-particle analysis, electron tomography, and electron (2D) crystallography.Link
EMDBA public repository for electron microscopy (EM) density maps of macromolecular complexes and subcellular structures. EMDB covers a variety of techniques, including single-particle analysis, electron tomography, and electron (2D) crystallography.Link
EMDBA public repository for electron microscopy (EM) density maps of macromolecular complexes and subcellular structures. EMDB covers a variety of techniques, including single-particle analysis, electron tomography, and electron (2D) crystallography.Link
EMDBA public repository for electron microscopy (EM) density maps of macromolecular complexes and subcellular structures. EMDB covers a variety of techniques, including single-particle analysis, electron tomography, and electron (2D) crystallography.Link
EMDBA public repository for electron microscopy (EM) density maps of macromolecular complexes and subcellular structures. EMDB covers a variety of techniques, including single-particle analysis, electron tomography, and electron (2D) crystallography.Link
EMDBA public repository for electron microscopy (EM) density maps of macromolecular complexes and subcellular structures. EMDB covers a variety of techniques, including single-particle analysis, electron tomography, and electron (2D) crystallography.Link